Groundwater represents the primary water reserve and plays an important role in combating water scarcity and it requires careful management. While surface water, is not as abundant as groundwater, it remains a vital source of fresh water in many regions and effective management of surface waters is crucial. Furthermore, sustainable management and efficient monitoring of both groundwater and surface water are essential for addressing social and environmental issues. In (the/a) situation of water scarcity, the implementation of appropriate strategies will achieve SDG and mitigate water issues. This topic will focus on research related to monitoring, sustainable strategies, water conservation, water valuation, water demand, water productivity, communities’ engagement, and water use.
Climate change is one of the greatest threats currently facing humanity. The Earth has already warmed by 1.1°C since the late 19th century. This is already affecting every region of the world, causing more frequent and intense extreme events. In addition, climate change has a substantial impact on surface water resources and groundwater recharge which may lead to freshwater availability. Within this theme, AGIC5 welcomes research on climate projection, climate modeling assessment, adaptation measures to preserve water resources and to reduce the risk of climate change.
Additionally, a description of best practices and initiatives can be selected. Furthermore, this topic can also cover some sub-topics related to water-saving techniques and the management of water resources in the context of climate change.
Water treatment and reuse are important to the sustainability and preservation of water resources. With the freshwater demand continuing to increase rapidly, it is important to manage this resource effectively and make alternative sources a key solution.
. Treatment technologies ensure that water is clean and safe for diverse purposes. In fact, reuse optimizes its utilization, and it reduces stress on limited freshwater resources. This topic welcomes innovative studies on water treatment technologies and reuse methods, including advances in water purification, disinfection, and recycling processes, as well as technological innovations.
This topic focuses on urgent actions to identify innovative solutions to combat pollution and ensure water quality.
It will be an occasion to bring together experts, researchers, and policymakers to discuss and share insights on cutting-edge technologies, regulations, and strategies for controlling pollutants in various water bodies, as well as the comprehensive assessment of water quality. This topic aims to explore the latest advancements in environmental science, collaborative efforts to mitigate contamination, and effective methods for monitoring and maintaining the health of our water ecosystems, fostering a deeper understanding of the intricate relationship between human activities and water quality.
Water, energy, and food are essential elements for human survival and well-being. The NEXUS Water-Food-Energy will be conducted to increase agriculture productivity, promote a circular economy, and enhance energy efficiency. In addition, the implementation of this nexus will depend on appropriate regulation and policy. The main research within this topic is smart irrigation based on energy-saving, treatment plants using innovative technology.
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Water scarcity and the increasing water demand necessitate effective and efficient water resource management strategies. Traditional methods of data collection and analysis are often time-consuming and limited in scope. However, advancements in GIS, remote sensing, and AI have revolutionized the way we understand and manage water resources.This topic aims to explore innovative approaches to addressing the challenges associated with water resources management.
It welcomes all contributions that deal with innovative solutions (big data, machine/transfer learning, neural networks, data cubes, … ) as well as Geographic Information Systems (GIS), remote sensing, and Image processing techniques to enhance sustainable water resources management.
Water-related hazards or hydro-hazards are the results of complex interactions between atmospheric, geomorphic, hydrologic, and biological, processes. They pose significant challenges to communities, economies, and the environment worldwide. Floods and droughts are expected to increase due to global warming. Increased hydro-hazard impacts and costs are attributable to such factors as increased event frequency and magnitude, unplanned urbanization, degradation of ecosystem services, vulnerable livelihoods, and inaccurate public perception of risk. The challenge is to identify appropriate and timely adaptation measures in a continuously changing environment. This topic aims to explore these various hydro-hazards (Floods, Droughts, Storm Surges, Tsunamis, Water Pollution, etc.) faced by different regions, their causes, impacts, and strategies for mitigation and adaptation.
The exploration and inventory of every drop of fresh water through geophysics and hydrogeological modeling have become essential for the optimal management of groundwater resources. Furthermore, the exploitation of these resources must prioritize sustainability. Today, the consideration of the hydro-sociological context and raising awareness among water consumers is a crucial factor.AGIC5 welcomes studies and research findings in geophysics, hydrology, hydrogeology, hydro-sociology as well as any other contributions that can enhance groundwater management.